JP2005509330A - Method and apparatus for determining a multicast group in a complex wireless environment - Google Patents

Abstract

  A plurality of mobile communication units (1, 2, 3) are assigned to receive the common content by multicast broadcast when the common content would otherwise be provided using individual channels. Assigned mobile communication units (1, 2, 3) are determined from a plurality of mobile communication units (1, 2, 3, 4) operating previously on different cellular communication networks (11, 12). .

Description

[Field of the Invention]
The present invention relates to the field of complex wireless environments, that is, the field of wireless environments including both multicast broadcast capabilities and one or more cellular wireless communication networks.

[Background of the invention]
In the field of the present invention, for example, digital audio broadcasting (DAB), Digital Video Broadcasting (DVB-T), GSM, GPRS, IMT-2000 system (e.g., Universal Mobile Telecommunications System (U niversal M obile T elecommunication S system)-UMTS), Bluetooth, and Hyperlan 1/2, the advent of digital broadcasting and communication technologies will enable a tremendous amount of innovative interactive multimedia services and applications. It has been known. Service providers will have the opportunity to augment their individual services by offering innovative combinations of these digital networks.

  Traditionally, however, complete application content has been provided to individual communication units, each via a single wireless system, and more particularly via individual channels. This is potentially wasteful of communication resources.

  A known means of reducing the overall use of communication resources when common content is being provided is to use multicast broadcasts that transmit common content to multiple communication units using a common channel. However, conventionally, this has been performed only in a predetermined manner for a predetermined content / service. Furthermore, this has not traditionally taken into account the features introduced by a complex wireless environment, i.e. a wireless environment including both multicast broadcast capability and one or more wireless communication networks.

  Accordingly, there is a need for an improved method for controlling the transmission of content to mobile communication devices in a mixed wireless environment.

[Summary of Invention]
In a first aspect, the present invention provides a method for determining a multicast group from a plurality of mobile communication devices in a complex radio environment as described in claim 1.

In a second aspect, the present invention provides a storage medium storing processor-executable instructions as set forth in claim 17.
In a third aspect, the present invention provides an apparatus as described in claim 18.
Further aspects are described in the dependent claims.

The present invention allocates a plurality of mobile communication devices to receive the common content by multicast broadcast when the common content would otherwise be supplied using individual channels. The assigned mobile communication device is determined from a plurality of mobile communication devices previously operating on different cellular communication networks.

  The inventor foreseen that multiple combinations of supply means would first be introduced into the mobile portable terminal device. This is because these services provide added value to what can currently be given to the mobile portable terminal device because the mobile portable terminal device is commercially viable.

The following are examples of potential service growth.
・ Narrow-casting for specific viewers and personalized A / V (personalized A / V) and data services: Usually, narrow-cast phone service is used as Internet data. It can be enhanced by combining. This is useful when collaborative research is needed on the Internet.
• Enhanced phone-based multimedia applications: Multimedia-based city guidance can be made available on mobile terminals. The city guide can be in the form of a panoramic screen shot or an internet map combined with a virtual reality model.
E-commerce scenarios combining broadcasting, internet and connection-based services.

The inventor has benefited by avoiding or reducing the prior art approach in which such services use different wireless systems to divide common content and supply it sequentially to different mobile communication devices. I predicted that I would get.

Embodiments of the invention will now be described by way of example only with reference to the accompanying drawings.

[Detailed Description of Preferred Embodiments]
FIG. 1 shows a part of an entire communication system 100 to which a first embodiment of the present invention can be applied. In this example mobile phone, four mobile communication units are shown as an example, a first communication unit 1, a second communication unit 2, a third communication unit 3 and a fourth communication unit 4. Yes.

  The first communication unit 1 and the third communication unit 3 are currently receiving communication services from the first communication network 11. The second communication unit 2 and the fourth communication unit 4 are currently receiving communication services from the second communication network 12. In this embodiment, each of these networks is a UMTS network. The communication system 100 also comprises a wireless broadcast network 13, and FIG. As such, it is intended to perform multicast broadcasting.

  In this embodiment, each of the cellular communication networks 11, 12 and the wireless broadcast network 13 are made from separate hardware such as an exchange center, a base station, a wireless transceiver, and so on. They are also distinct in the commercial sense. However, in other embodiments, different networks may be able to share some or all of their hardware, but different commercials on a time division basis or for different radio channels, etc. Different networks could be constructed by being used by specific entities. The network may itself be renting such airtime or channels from different commercial entities using associated hardware.

Each of the cellular communication networks 11, 12 and the wireless broadcast network 13 are coupled to a backbone entity, in this example the Ipv6 backbone, by respective communication links 22, 24 and 26. A first control unit, in this example, a composite radio server (C omposite R adio S erver) (CRS) 30 is coupled by a communication link 32 to the backbone 20. The second control unit, in this example, the service provider server (S ervice P rovider S erver) (SPS) 40 is coupled by a communication link 44 and 46 to the backbone 20 via the Internet 42 .

  In this example, each of the first to fourth communication units 1, 2, 3, and 4 is receiving content from the SPS 40 that has logged on to the Internet. The first, second and fourth mobile communication units 1, 2 and 4 are receiving common content (eg, a specific sports commentary) indicated by the text “C1” in FIG. On the other hand, the third mobile communication unit 3 is receiving different contents (for example, download of a specific item (item) of music) indicated by “C2” in FIG.

The processing steps performed under the first embodiment are shown in the flow chart of FIG.
In step S2, the CRS 30 determines, for each communication unit, the availability for communication units of different wireless communication networks at the particular geographical location of the communication unit. This is given as a matrix, and location information for a particular user is obtained from the appropriate entity in the network and then a lookup table is used to determine the wireless communication networks that are available in the above range Is formed. Thus, the CRS 30 determines, for each communication unit, location information and a communication network that can be used for the mobile communication unit. In addition, optical data such as signal quality, estimated duration of coverage, etc. may be included.

Alternatively, CRS 30 is to form a composite system matrix, using a common control channel (C ommon C ontrol C hannel) (CCC) on each network, for the mobile communication unit 1, 2, 3, 4 Certain measurements may be performed.

CRS 30 reports the composite system matrix (ie, radio network availability, signal quality, estimated duration of coverage, etc.) to SPS 40.
In step S4, the SPS 40 determines the degree of content commonality between different users on the server, ie, in this example, the mobile communication units 1, 2, 4 download the same content C1, while the third The mobile communication unit 3 is downloading other content C2. In this way, the SPS 40 allows each mobile communication unit 1, 2, 3, 4 to have its respective mobile communication unit now individually connected via the current communication network from which the mobile communication unit is currently receiving service. Determine what content is being received on the channel.

  The SPS 40 uses this information along with the complex system matrix to determine which users can be served by multicast. More specifically, in step S6, the SPS 40 compares the matrix information, that is, the information obtained from step S2, with the content information obtained from step S4. In step S8, the SPS 40 allocates a mobile communication unit that receives common content via multicast broadcasting, depending on the result of step S6 to be compared. Multicast broadcasting is intended for broadcasting on a common channel within a predefined geographic area 15. In this example, mobile communication units 1, 2, 4 are assigned for multicast because they share common content C1. This completes the process of determining a multicast group.

  In this embodiment, the process is extended to include actually switching the mobile communication unit to multicast. The assigned mobile communication unit will be switched to multicast when at least two such mobile communication units can receive the multicast in the predefined range 15 (in other embodiments, multicast Other minimum numbers can be set or more complex criteria can be adopted to determine whether or when to switch to.) However, in the situation shown in FIG. 1, the switch to multicast has not yet been performed. This is because only the first mobile communication unit 1 of the assigned mobile communication units is currently in the predefined range 15.

  However, as shown in FIG. 1, the second mobile communication unit 2 is moving towards a predefined geographical area 15. FIG. 3 illustrates the overall situation when the second mobile communication unit 2 has reached a predefined geographical area 15.

Since (in this example) two of the assigned mobile communication units are then eligible to switch to multicast mode in step S10, it is thus possible to switch these mobile communication units to multicast broadcasting. , Then run. SPS 40 uses the common control channel to inform them of the requested switch / handover. More specifically, the SPS 40 communicates the details of the assigned group's mobile communication unit to the CRS 30, which then establishes a paging channel on the broadcast component (eg, DVB, DAB) for that group. To do. Using multicast group paging channel (M ulticast G roup P aging C hannel) (MGPG), the change of all the control information (coding information associated with the given multicast group, the multimedia for content Send parameter changes, specific signal strength requirements, quality of service (QoS) measurements, and so on.

  In the above embodiment, switching to multicast broadcasting is performed using a relatively simple determination criterion. However, in other embodiments, more complex criteria may be employed for switching and indeed to determine whether a particular candidate mobile communication unit is included in the broadcast group. These criteria can be determined such that the amount of data transmitted by multicast other than by individual channels is substantially maximized.

  In this embodiment, once multicast has begun, CRS 30 continues to monitor the appropriate parameters (eg, location, content, quality of service (QOS)). This can be done, for example, using a multicast group paging channel when it becomes appropriate for a mobile communication unit within the multicast group and returns to receiving service from its original appropriate cellular network Is done. Alternatively, it may be determined that one or more mobile communication units should be handed over to different multicast groups or to different cellular networks.

  The specific steps attributed to each of the CRS 30 and SPS 40 in the above embodiment may be performed by either server in other embodiments. Indeed, in other embodiments, other system components may perform some or all of the above steps.

  In the above embodiment, the cellular networks 11, 12 are both UMTS networks. However, the present invention is applicable to other networks such as GPRS and GSM networks.

  The above embodiments may be implemented by configuring or adapting any suitable device that forms part or all of the aforementioned server or other system components, eg, a computer, or other processing device. Alternatively, the foregoing process is performed by a processor executing processor-executable instructions and / or suitable storage such as computer memory, hard disk, floppy disk, ROM, PROM, etc. It can be stored on a medium. The processor may be a computer, a network of computers, or one or more dedicated processors.

  The present invention includes particular applications in complex wireless environments including, for example, cellular wireless communication systems with UMTS networks. However, the inventive concepts contained herein are equally applicable to other cellular and other two-way communication networks. While specific and preferred embodiments of the present invention have been described above, it will be apparent that variations and modifications of such inventive concepts may be readily applied by those skilled in the art.

The above-described method for establishing a paging channel for a multicast group in a combined radio environment (broadcast + cellular) is particularly suited to provide the following advantages.
• Efficient use of spectrum • Provision of “common” part of application to multiple users • Integration of broadcasting and two-way radio technology • Scalable complex radio architecture • Complex radio server is added to the periphery of the network, and It may allow the server provider to have an impact on decisions regarding which provisioning means to use to meet a given user's quality of service (QoS) expectations.
-Since all users in a single multicast group use a dedicated paging channel, an effective signaling means is provided.

FIG. 1 schematically illustrates a portion of an overall communication system that includes multiple communication networks in which embodiments of the invention may be implemented. FIG. 2 is a flowchart showing the processing steps employed in the embodiment of the present invention. FIG. 3 shows the system of FIG. 1 at different stages during execution of an embodiment.

Claims (18)

A method for determining one multicast group from a plurality of mobile communication devices (1, 2, 3, 4) in a complex wireless environment,
(A) For each of the mobile communication devices (1, 2, 3, 4), determining location information and a communication network that can be used by the mobile communication device;
(B) For each of the mobile communication devices (1, 2, 3, 4), the mobile communication device is currently on each individual channel and the mobile communication device is currently receiving service Determining what content is being received via
(C) comparing the information from said determining steps (a) and (b);
(D) Mobile communication devices (1, 2, 3) that receive common content via multicast broadcast on a common channel in a predefined geographical range (15) according to the comparing step (c) ).   The method according to claim 1, further comprising the step of (e) switching said assigned mobile communication device (1, 2, 3) to multicast broadcast.   The method of claim 2, further comprising the step of: (f) switching one or more of the assigned mobile communication devices (1, 2, 3) from the multicast broadcast.   The determining step (a) obtains location information for the mobile communication device from the current communication network and determines the available communication network for the mobile communication device from a lookup table. The method according to claim 1, wherein the method is performed by:   The determining step (a) is performed using a common control channel on a plurality of communication networks (11, 12) to obtain measurements associated with the mobile communication device (1, 2, 3, 4). The method according to any one of claims 1 to 3.   6. The method according to any one of claims 1 to 5, wherein the determining step (a) comprises creating a matrix containing the determined information. Step (a) is performed by the first controller unit (30),
The determined information is transmitted to the second controller unit (40);
The method according to any one of the preceding claims, wherein steps (b), (c) and (d) are performed by the second controller unit (40). When dependent on claim 2
A second controller unit (40) of the mobile communication device (1, 2, 3) assigned in step (d), wherein the second controller unit (30) transmits information to the first controller unit (30); A controller unit (40);
The method of claim 7, wherein step (e) is controlled by the second controller unit (40).   The switching step (e) is performed by establishing a paging channel to the assigned mobile communication device (1, 2, 3) and sending control information on the paging channel. The method according to any one of 2 to 8.   The method of claim 9, wherein the control information comprises a handoff request.   11. A method according to any one of claims 2 to 10, wherein step (e) is performed in response to the criteria being met.   12. The method of claim 11, wherein the criterion comprises that at least a predetermined number of assigned mobile communication devices can currently be switched to the multicast broadcast.   13. A method according to claim 11 or 12, wherein the criterion comprises one or more coefficients associated with operating parameters of the respective mobile communication device.   The method of claim 13, wherein the operational parameter comprises an estimated duration of signal quality and / or coverage by the multicast.   15. A method according to any one of the preceding claims, wherein the amount of data transmitted by multicast rather than individual channels is substantially maximized.   The current communication network (11, 12) of one or more of the mobile communication devices (1, 2, 3, 4) comprises a cellular radio communication network, for example a UMTS network. The method according to any one of 1 to 15.   A storage medium storing processor-executable instructions for controlling one or more processors to perform the method of any one of claims 1-16.   An apparatus adapted to carry out the method according to any one of the preceding claims.

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